射频电容式加热装置的加热特性

H. Kato, Tsuneo Takasugi, Ryujiro Tanaka, Yasuji Yamamoto
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引用次数: 1

摘要

Yamamoto Vinita株式会社生产的射频电容式加热装置(8 MHz),将发生器从使用电子管的EX型自激振荡器改进为使用晶体振荡的固态放大器的GR型,从而实现了小型化。为了证明新设备的加热特性,我们使用琼脂模型比较了两种设备在基本加热特性和假定临床使用方面的加热性能。1)两种器件产生的射频波形相似,没有失真。2)在用模体测量加热电的实验中,两种装置都能均匀地加热模体,加热效率分别为63%和64%。3)在一对电极之间夹一个模体,将下电极的直径固定为30 cm,将上电极的直径从30 cm改为7 cm。电极越小,受热范围越浅。这些现象在两个设备上都是一样的。4)当幻肢上部有突出物时,突出物的温升高于其周围环境。这两种设备上的趋势都是一样的。5)当模体内有气腔时,靠近电极的气腔的模体温升较小,而不面向电极的气腔的模体温升较大。这些现象在两种设备上都是一样的。(6)当体模中有骨时,体模中靠近电极的骨温升小,而非靠近电极的骨温升大。骨头本身的温度上升了一点。这些现象在两个设备上都是一样的。7)无论电极平行或不平行设置,深度方向的温度分布是相同的。但是,在两个电极之间距离较近的地方,幻影一侧的温度上升幅度大于另一侧。这些现象在两个设备上都是一样的。由上可知,使用固态放大器的加热装置GR版本相对于使用振荡管的加热装置EX版本向上兼容。
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Heating Characteristics of RF Capacitive-type Heating Device
RF Capacitive-type heating device (8 MHz) manufactured by Yamamoto Vinita Co., Ltd., improved the generator from EX edition with self-excited oscillator using tube to GR edition with solid-state amplifier using crystal oscillation, which led to downsizing. To prove heating characteristics of the new device, we compared the heating performance of both devices on basic heating characteristics and assumed clinical use using agar phantoms. 1) Waveforms of RF generated by both devices were similar, and those were not distorted. 2) In the experiment using a phantom for measuring the heating electricity, both devices were able to uniformly heat the phantom, and those heating efficiencies were 63 and 64%, respectively. 3) A phantom was sandwiched between a pair of electrodes, the diameter of lower electrode was fixed at 30 cm, and that of upper electrode was changed from 30 to 7 cm. The range of the heating area became shallower as the electrode became smaller. Those phenomena were same on both devices. 4) In case of a protrusion on upper side of the phantom, the temperature rise of the protrusion was higher than its surroundings. Those tendencies were same on both devices. 5) When there was an air cavity in the phantom, the temperature rises in the phantom near the air cavity facing the electrode was small, and that not facing the electrode was large. Those phenomena were the same on both devices. 6) When there was a bone in the phantom, the temperature rises in the phantom near the bone facing the electrode was small, and that not facing it was large. The temperature of the bone itself rose a little. Those phenomena were same on both devices. 7) Regardless of electrodes set in parallel or not parallel, the temperature distributions of the depth direction were same. But the temperature rises in one side of the phantom at the closer distance between two electrodes rose larger than the opposite side. Those phenomena were same on both devices. From the above, the heating device GR edition using the solid-state amplifier is upward compatible with respect to the heating device EX edition using the oscillating tube.
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